Robust Crosstalk Cancellation Based on Energy-Based Control
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J. Lee, Y. Park, and D. Youn, "Robust Crosstalk Cancellation Based on Energy-Based Control," Paper 14, (2008 August.). doi:
J. Lee, Y. Park, and D. Youn, "Robust Crosstalk Cancellation Based on Energy-Based Control," Paper 14, (2008 August.). doi:
Abstract: This paper presents a robust crosstalk cancellation algorithm based on the control of acoustic energy density. Since it is known that energy density distribution in a space is more uniform than acoustic pressure, the control of energy density can provide more stable crosstalk cancellation than the case of controlling squared pressure. Thus, the proposed algo-rithm produces a robust crosstalk cancellation in the vicinity of error sensor. Simulation results confirm that the use of proposed algorithm provide stable zone of crosstalk cancellation, which contributes to the robustness in relation to movement of listener.
@article{lee2008robust,
author={lee, junho and park, young-cheol and youn, dae-hee},
journal={journal of the audio engineering society},
title={robust crosstalk cancellation based on energy-based control},
year={2008},
volume={},
number={},
pages={},
doi={},
month={august},}
@article{lee2008robust,
author={lee, junho and park, young-cheol and youn, dae-hee},
journal={journal of the audio engineering society},
title={robust crosstalk cancellation based on energy-based control},
year={2008},
volume={},
number={},
pages={},
doi={},
month={august},
abstract={this paper presents a robust crosstalk cancellation algorithm based on the control of acoustic energy density. since it is known that energy density distribution in a space is more uniform than acoustic pressure, the control of energy density can provide more stable crosstalk cancellation than the case of controlling squared pressure. thus, the proposed algo-rithm produces a robust crosstalk cancellation in the vicinity of error sensor. simulation results confirm that the use of proposed algorithm provide stable zone of crosstalk cancellation, which contributes to the robustness in relation to movement of listener.},}
TY - paper
TI - Robust Crosstalk Cancellation Based on Energy-Based Control
SP -
EP -
AU - Lee, Junho
AU - Park, Young-Cheol
AU - Youn, Dae-Hee
PY - 2008
JO - Journal of the Audio Engineering Society
IS -
VO -
VL -
Y1 - August 2008
TY - paper
TI - Robust Crosstalk Cancellation Based on Energy-Based Control
SP -
EP -
AU - Lee, Junho
AU - Park, Young-Cheol
AU - Youn, Dae-Hee
PY - 2008
JO - Journal of the Audio Engineering Society
IS -
VO -
VL -
Y1 - August 2008
AB - This paper presents a robust crosstalk cancellation algorithm based on the control of acoustic energy density. Since it is known that energy density distribution in a space is more uniform than acoustic pressure, the control of energy density can provide more stable crosstalk cancellation than the case of controlling squared pressure. Thus, the proposed algo-rithm produces a robust crosstalk cancellation in the vicinity of error sensor. Simulation results confirm that the use of proposed algorithm provide stable zone of crosstalk cancellation, which contributes to the robustness in relation to movement of listener.
This paper presents a robust crosstalk cancellation algorithm based on the control of acoustic energy density. Since it is known that energy density distribution in a space is more uniform than acoustic pressure, the control of energy density can provide more stable crosstalk cancellation than the case of controlling squared pressure. Thus, the proposed algo-rithm produces a robust crosstalk cancellation in the vicinity of error sensor. Simulation results confirm that the use of proposed algorithm provide stable zone of crosstalk cancellation, which contributes to the robustness in relation to movement of listener.
Authors:
Lee, Junho; Park, Young-Cheol; Youn, Dae-Hee
Affiliation:
Yonsei University
AES Conference:
34th International Conference: New Trends in Audio for Mobile and Handheld Devices (August 2008)
Paper Number:
14
Publication Date:
August 1, 2008Import into BibTeX
Subject:
Audio for Mobile & Handheld Devices: 3-D Audio
Permalink:
http://www.aes.org/e-lib/browse.cfm?elib=14423